Physiological Effects Associated with Quinoa Consumption and Implications for Research Involving Humans: a Review

Simnadis, Thomas; Tapsell, Linda C.; Beck, Eleanor

doi:10.1007/s11130-015-0506-5

Cited by 33 publications

(22 citation statements)

References 32 publications

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“…Velarde-Salcedo et al 2012investigated and revealed the ability of quinoa seed peptide to prevent the activation of dipeptidase dipeptidyl enzyme, in addition, to conduct the effects of this peptide in lipid accumulation in adipocyte rats cultures. Simnadis et al (2015) investigated physiological effect of consuming quinoa seeds to decrease weight gain and improve lipids profile. These physiological effects were attributed to the presence of protein, saponin, and 20-hydroxyecdysone in quinoa seeds, in addition to increasing the permeability of intestinal epithelial cell, decrease the capacity to nutrients active absorption for development and growth of animals.…”

Section: Chemical Compositionmentioning

confidence: 99%

Nutritional value of germinated quinoa seeds and their protective effects on rats' health injected by nicotine

Ali

2019

Egypt. J. Food Sci.

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N ICOTINE resulted from heavy smoking raises the risk of developing of chronic liver diseases, hence hepatocellular carcinoma. Nicotine also encourages the proinflammatory cytokins production which would be involved in the injury of liver cell. This study was conducted to investigate nutritional components and protective effect of germinated quinoa seeds on rats' health that injected by nicotine. Thirty male albino adult rats (150±10 g.) were used. The rats divided into two main groups; one used as a negative control group fed on basal diet, while other groups used as a positive control group fed on basal diet also and three other rats subgroups fed on supplemented diet with germinated quinoa seeds at three concentrations (i.e. 5 %, 10% and 15%) for 4 weeks, then injected with nicotine subcutaneously for 15 days. Biological evaluation, lipid profile, liver enzymes, kidney functions, and antioxidant markers were estimated at the end of the experiment. The chemical composition of germinated quinoa seeds demonstrated that quinoa can be considered as a good source for dietary fiber, polyphenols and other antioxidant compounds which raised the nutritional value. The results indicated that kidney and liver functions were restored significantly in rats' groups received quinoa seeds 10%, followed by quinoa seeds 5 % as compared to the positive control group. The nicotine rats group showed significant decrease in triglyceride, VLDL-C, and LDL-C; on the other hand, all supplemented groups with quinoa seeds 10%, followed by quinoa seeds 5 % showed a gradually significant increase in HDL-C. Serum total cholesterol and LDL-C were significantly increased in the positive control group, while they gradually significant decreased in all supplemented diet groups demonstrated. Therefore, this study reveals the health benefits of quinoa seeds in functional foods for heart disease, hypercholesterolemic and patients with liver disease.

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Section: Chemical Compositionmentioning

confidence: 99%

Nutritional value of germinated quinoa seeds and their protective effects on rats' health injected by nicotine

Ali

2019

Egypt. J. Food Sci.

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“…It also has the potential to contribute to food security in other regions of the developing word [15]. Compared with other grains, like wheat, corn and rice, quinoa has a higher protein content, contains all essential amino acids, and is easy to digest as it is gluten free [10][11][12][13][14]. Being a strategic Andean crop in the region, quinoa has attracted political and research interest since 1999.…”

Section: Quinoa and Food Securitymentioning

confidence: 99%

“…Smallholders face different constraints to crop production and marketing than large-scale producers and might have different preferences for certain traits of improved quinoa varieties. For example, taste preference in Andean regions where quinoa belongs to the traditional diet may differ from taste preferences in international markets where quinoa has become healthy food type that has the highest content of protein compared with conventional grains like wheat, corn and rice [10] and that contains all essential amino acids [11], is gluten-free [12,13] and easy to digest [14]. In addition, one of the major impediments to reaching high productivity in the Andes region is quinoa's susceptibility to mildew, a plant disease caused by fungi [4,15].…”

Section: Introductionmentioning

confidence: 99%

Smallholders’ Preferences for Improved Quinoa Varieties in the Peruvian Andes

2018

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Due to an increase in international demand, quinoa production has boomed tremendously in the Andes since the early 2010s. This has led to significant investments into developing improved varieties for large-scale agribusinesses, but breeding programs are not tailored to the needs of smallholders. In this paper, we study farmers’ preferences and willingness to pay for improved quinoa varieties in the Junín region in Peru. We use data from a choice experiment among 458 smallholders and estimate generalized multinomial logit models to control for preference and scale heterogeneity. We find that farmers generally prefer improved varieties over traditional varieties, with mildew-resistance as the most important crop trait. In general, farmers prefer varieties that are characterized by larger grain sizes, higher yield levels, lower levels of saponin, and a reduced maturation period. Yet, food-insecure farmers are found to be indifferent to early maturity and a larger grain size, which can be explained by a lower degree of commercialization among these farmers. Our results imply that developing mildew-tolerant and higher-yielding varieties with a medium to low saponin content is a priority if investments in quinoa technologies are to benefit small-scale and food insecure farmers in the Andean highlands of Peru.

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“…Additionally, quinoa is a good source of vitamins, oil with high linoleate and linolenate content (55–66% of the lipid fraction), natural antioxidants such as α- and γ-tocopherol, and a wide range of minerals (Repo-Carrasco et al, 2003; Vega-Gálvez et al, 2010; Fuentes and Bhargava, 2011; Stikic et al, 2012; Ruiz et al, 2014). Interestingly, quinoa consumption may lead to comparatively lower weight gain, and improved lipid profile and potential antioxidant effects, physiological outcomes that have been linked to bioactive compounds, such as saponins, quinoa proteins, polyphenolic compounds and 20-hydroxyecdysone by yet unknown mechanisms (Simnadis et al, 2015). Considering the attributes and potential to contribute to food security worldwide, the draft genome sequence of an inbred line has been recently published, comprising a free-access Quinoa Genome DataBase (QGDB), which will provide insights into the mechanisms underlying agronomically important traits of quinoa (Yasui et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Transcriptional Responses of Chilean Quinoa (Chenopodium quinoa Willd.) Under Water Deficit Conditions Uncovers ABA-Independent Expression Patterns

et al. 2017

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HIGHLIGHTS R49 genotype displayed best performance on selected physiological parameters and highest tolerance to drought.R49 drought over-represented transcripts has exhibited 19% of genes (306 contigs) that presented no homology to published databases.Expression pattern for canonical responses to drought such as ABA biosynthesis and other genes induced in response to drought were assessed by qPCR.Global freshwater shortage is one of the biggest challenges of our time, often associated to misuse, increased consumption demands and the effects of climate change, paralleled with the desertification of vast areas. Chenopodium quinoa (Willd.) represents a very promising species, due to both nutritional content and cultivation under water constraint. We characterized drought tolerance of three Chilean genotypes and selected Genotype R49 (Salares ecotype) based upon Relative Water Content (RWC), Electrolyte Leakage (EL) and maximum efficiency of photosystem II (Fv/Fm) after drought treatment, when compared to another two genotypes. Exploratory RNA-Seq of R49 was generated by Illumina paired-ends method comparing drought and control irrigation conditions. We obtained 104.8 million reads, with 54 million reads for control condition and 51 million reads for drought condition. Reads were assembled in 150,952 contigs, were 31,523 contigs have a reading frame of at least 300 nucleotides (100 aminoacids). BLAST2GO annotation showed a 15% of genes without homology to NCBI proteins, but increased to 19% (306 contigs) when focused into drought-induced genes. Expression pattern for canonical drought responses such as ABA biosynthesis and other genes induced were assessed by qPCR, suggesting novelty of R49 drought responses.

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Physiological Effects Associated with Quinoa Consumption and Implications for Research Involving Humans: a Review

Cited by 33 publications

References 32 publications

Nutritional value of germinated quinoa seeds and their protective effects on rats' health injected by nicotine

Nutritional value of germinated quinoa seeds and their protective effects on rats' health injected by nicotine

Smallholders’ Preferences for Improved Quinoa Varieties in the Peruvian Andes

Transcriptional Responses of Chilean Quinoa (Chenopodium quinoa Willd.) Under Water Deficit Conditions Uncovers ABA-Independent Expression Patterns

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